A time-domain optical transmission system simulation package accounting for nonlinear and polarization-related effects in fiber

Carena, Andrea; Curri, Vittorio; Gaudino, Roberto; Poggiolini, Pierluigi; Benedetto, S.

doi:10.1109/49.585785

Cited by 56 publications

(23 citation statements)

References 33 publications

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“…The DGD value varies along the fiber following a stochastic process. It is proven that these DGD values complies with a Maxwellian distribution as shown in Figure 7 [10,13,14].…”

Section: Polarization Mode Dispersion (Pmd)mentioning

confidence: 78%

MATLAB Simulink Simulation Platform for Photonic Transmission Systems

Bình¹

2009

IJCNS

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High speed and ultra-high capacity optical communications have emerged as the essential techniques for backbone global information transmission networks. As the bit rate of the transmission system gets higher and higher 40 Gb/s to 100 Gb/s the modeling of proposed modulation techniques is very important so as to avoid costly practical demonstration. The search for a universal modeling platform for such systems is urgent. Matlab Simulink has become the universal mathematical and modeling tools in most universities and research laboratories around the world. This paper thus describes the modeling techniques for advanced photonic transmission systems and Simulink is proven to be very effective platform for development of photonic communications systems due its comprehensive blocksets. The simulation is based mainly on the physical phenomena and understanding of its concepts of communications and photonics. Simulink models are given as examples of various sub-systems of the photonic transmission systems. Some simulated transmission performances are demonstrated as examples of final results obtained from Simulink models of the transmission systems.

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“…The DGD value varies along the fiber following a stochastic process. It is proven that these DGD values complies with a Maxwellian distribution as shown in Figure 7 [10,13,14].…”

Section: Polarization Mode Dispersion (Pmd)mentioning

confidence: 78%

MATLAB Simulink Simulation Platform for Photonic Transmission Systems

Bình¹

2009

IJCNS

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“…At the transmitter section a pseudo-random bit sequence of a given length is used to modulate a laser source directly or externally through an amplitude or phase modulator. The optical fiber can be modeled using the Time Domain Split Step [2] method, effective to simulate long bit sequences needed for systems with strong inter-symbolic interference, or the Frequency Domain Split Step [3] method, effective to simulate wide-bandwidth occupancy CWDM systems. The Monte-Carlo and semi-analytical techniques can be used to model the noise generated by optical and electrical amplification.…”

Section: Singlemode Simulation Toolsmentioning

confidence: 99%

Modeling software for optical broadband access network design and optimization

Huang¹,

Ghillino²,

Mena³

et al. 2006

SPIE Proceedings

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Designing broadband access networks involves selecting the topology that satisfies the network requirements, and comparing the performance of different what-if scenarios in order to achieve the optimal network layout. Modeling software tools are instrumental for each phase of the design cycle and help answering to complex questions such as what is the impact of single-and multi-mode fiber linear and nonlinear effects, what is maximum fiber length before eye closure, how many regenerators are needed and where they have to be placed. This paper shows through a series of examples how modeling tools can be used for single-and multi-mode broadband access network design and planning.

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“…PMD can be implemented in the model by two ways: (i) statistical noise with Maxwellian distribution as follows [19]:…”

Section: E Polarization Mode Dispersion (Pmd)mentioning

confidence: 99%

Long-haul ASK and DPSK Optical Fibre Transmission Systems: Simulink Modeling and Experimental Demonstration Test-Beds

Huynh

Bình

Tran

et al. 2005

TENCON 2005 - 2005 IEEE Region 10 Conference

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We present the MatlabTM Simulink model and its corroboration with experimental transmission of amplitude and differential phase modulation incorporating RZ, NRZ, carrier suppressed RZ formats over 320 km long-haul optical fibre transmission systems. Dispersion tolerance of the transmission systems under non-compensation and compensated transmission fibres is given. Simulated and measured eye diagrams are reported.I.

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A time-domain optical transmission system simulation package accounting for nonlinear and polarization-related effects in fiber

Cited by 56 publications

References 33 publications

MATLAB Simulink Simulation Platform for Photonic Transmission Systems

MATLAB Simulink Simulation Platform for Photonic Transmission Systems

Modeling software for optical broadband access network design and optimization

Long-haul ASK and DPSK Optical Fibre Transmission Systems: Simulink Modeling and Experimental Demonstration Test-Beds

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